Issue 6, 2022

Covalently attached intercalators restore duplex stability and splice-switching activity to triazole-modified oligonucleotides

Abstract

Oligonucleotides are rapidly emerging as powerful therapeutics for hard to treat diseases. Short single-stranded oligonucleotides can base pair with target RNA and alter gene expression, providing an attractive therapeutic approach at the genetic level. Whilst conceptually appealing, oligonucleotides require chemical modification for clinical use. One emerging approach is to substitute the phosphodiester backbone with other chemical linkages such as triazole. The triazole linkage is inherently resistant to enzymatic degradation, providing stability in vivo, and is uncharged, potentially improving cell-penetration and in vivo distribution. Triazole linkages, however, are known to reduce RNA target binding affinity. Here we show that by attaching pyrene or anthraquinone to the ribose sugar on the 5′-side of the triazole, it is possible to recover duplex stability and restore the splice switching ability of triazole-containing oligonucleotides.

Graphical abstract: Covalently attached intercalators restore duplex stability and splice-switching activity to triazole-modified oligonucleotides

Supplementary files

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Article information

Article type
Paper
Submitted
13 avr. 2022
Accepted
15 mai 2022
First published
16 mai 2022
This article is Open Access
Creative Commons BY license

RSC Chem. Biol., 2022,3, 765-772

Covalently attached intercalators restore duplex stability and splice-switching activity to triazole-modified oligonucleotides

A. Dysko, Y. R. Baker, G. McClorey, M. J. A. Wood, S. Fenner, G. Williams, A. El-Sagheer and T. Brown, RSC Chem. Biol., 2022, 3, 765 DOI: 10.1039/D2CB00100D

This article is licensed under a Creative Commons Attribution 3.0 Unported Licence. You can use material from this article in other publications without requesting further permissions from the RSC, provided that the correct acknowledgement is given.

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